Hubble Space Telescope Captures UGC~12591: Bulge/Disc Properties, Star Formation and `Missing Baryons' Census in a Very Massive and Fast Spinning Hybrid Galaxy

Abstract

We present Hubble Space Telescope (HST) observations of the nearby, massive, highly rotating hybrid galaxy UGC~12591, along with observations in UV to FIR bands. HST data in V, I, and H bands is used to disentangle the structural components. Surface photometry shows a dominance of the bulge over the disc with H-band B/D ratio of 69\%. The spectral energy distribution (SED) fitting reveals an extremely low global star formation rate (SFR) of 0.1-0.2 M yr-1, exceptionally low for the galaxy's huge stellar mass of 1.6×1011M, implying a strong quenching of its SFR with star formation efficiency of 3-5\%. For at least the past 108 years, the galaxy has remained in a quiescent state as a sterile, `red and dead' galaxy. UGC~12591 hosts a supermassive black hole (SMBH) of 6.18× 108 M which is possibly quiescent at present, i.e. neither we see large (>1 kpc) radio jets nor is the SMBH contributing significantly to the mid-IR SED, ruling out strong radiative feedback of AGN. We obtained a detailed census of all observable baryons with a total mass of 6.46×1011 M within the virial radius, amounting to a baryonic deficiency of 85\% relative to the cosmological mean. Only a small fraction of these baryons resides in a warm/hot circum-galactic X-ray halo, while the majority are still unobservable. We discussed various astrophysical scenarios to explain its unusual properties. Our work is a major step forward in understanding the assembly history of such extremely massive, isolated galaxies.